An adhesion barrier is comprised of, consists of, or consists essentially of a sheet having a top surface and a bottom surface. The sheet includes either (i) interconnected links or (ii) interconnected, vertically aligned, partitions. The links form pores or the partitions form pores, with the pores extending from the top surface through the bottom surface. The sheet is comprised of, consists of, or consists essentially of a flexible or elastic polymer.

Provided herein photo-reactive inks, thermal-curable materials and objects (e.g., medical implants, scaffolds, devices, etc.) made therefrom, and methods of preparation and use thereof.

Provided herein photo-reactive inks, thermal-curable materials and objects (e.g., medical implants, scaffolds, devices, etc.) made therefrom, and methods of preparation and use thereof.

A mesh-based composition comprising a cross-linkable protein or polypeptide and one or more cross-linking materials according to at least some embodiments. The mesh-based composition may comprise a self-adhering surgical mesh which requires no additional fixation while at the same time minimizes adhesions. The mesh may be in the form of a composite mesh featuring a foamed composition of the cross-linkable protein and a non-toxic material that induces cross-linking of the cross-linkable protein. The composite mesh may be in a sheet-like form.

A mesh-based composition comprising a cross-linkable protein or polypeptide and one or more cross-linking materials according to at least some embodiments. The mesh-based composition may comprise a self-adhering surgical mesh which requires no additional fixation while at the same time minimizes adhesions. The mesh may be in the form of a composite mesh featuring a foamed composition of the cross-linkable protein and a non-toxic material that induces cross-linking of the cross-linkable protein. The composite mesh may be in a sheet-like form.

In one aspect, methods are described herein employing particle compositions operable to form composite membrane for inhibition of post-surgical adhesions. Briefly, a method of treating a surgical site comprises contacting the surgical site with a particle formulation comprising targeting particles and scaffolding particles. The targeting particles and scaffolding particles are crosslinked to provide a composite membrane at the surgical site, wherein formation of post-surgical adhesions are inhibited by the composite membrane.

In one aspect, methods are described herein employing particle compositions operable to form composite membrane for inhibition of post-surgical adhesions. Briefly, a method of treating a surgical site comprises contacting the surgical site with a particle formulation comprising targeting particles and scaffolding particles. The targeting particles and scaffolding particles are crosslinked to provide a composite membrane at the surgical site, wherein formation of post-surgical adhesions are inhibited by the composite membrane.

A composite lumen includes a braided structure infused with an impermeable elastic sealer. The braided structure has an inner diameter of 3 mm or less and a braid angle greater than 100°. The braided structure also has a wall thickness to inner diameter ratio greater than 0.02, picks per inch from between about 25 and about 135, and a number of ends between about 12 and about 48, with a braid pattern that is selected from 1×1, 2×2, or 2×1 and with an effective yarn denier (yarn denier×ply number) greater than 45.

In one aspect, compositions and wound dressings are described herein. In some embodiments, a composition or wound dressing described herein comprises a mesh formed from a plurality of biodegradable polymer fibers; a first active agent dispersed in the biodegradable polymer fibers; a plurality of biodegradable polymer particles disposed in the mesh; and a second active agent dispersed in the biodegradable polymer particles. The particles can be disposed within the interiors of the fibers of the mesh or between the fibers of the mesh. In another aspect, a composition or wound dressing described herein comprises a first perforated mesh formed from a first plurality of biodegradable polymer fibers; and a second perforated mesh formed from a second plurality of biodegradable polymer fibers, wherein the second perforated mesh is disposed on the first perforated mesh in a stacked configuration and the first and second perforated meshes have different degrees of perforation.

In one aspect, compositions and wound dressings are described herein. In some embodiments, a composition or wound dressing described herein comprises a mesh formed from a plurality of biodegradable polymer fibers; a first active agent dispersed in the biodegradable polymer fibers; a plurality of biodegradable polymer particles disposed in the mesh; and a second active agent dispersed in the biodegradable polymer particles. The particles can be disposed within the interiors of the fibers of the mesh or between the fibers of the mesh. In another aspect, a composition or wound dressing described herein comprises a first perforated mesh formed from a first plurality of biodegradable polymer fibers; and a second perforated mesh formed from a second plurality of biodegradable polymer fibers, wherein the second perforated mesh is disposed on the first perforated mesh in a stacked configuration and the first and second perforated meshes have different degrees of perforation.